Carbon Capture Efficiency of Natural Water Alkalinization
• Matteo Bernard Bertagni,
• Amilcare Porporato
Matteo Bernard Bertagni
The High Meadows Environmental Institute, The High Meadows Environmental Institute

Corresponding Author:matteobb@princeton.edu

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Amilcare Porporato
The High Meadows Environmental Institute, The High Meadows Environmental Institute
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## Abstract

Alkalinization of natural waters by the dissolution of natural or artificial minerals is a promising solution to sequester atmospheric CO$_2$ and counteract acidification. Here we address the alkalinization carbon capture efficiency (ACCE) by deriving an analytical factor that quantifies the increase in dissolved inorganic carbon in the water due to variations in alkalinity. We show that ACCE strongly depends on the water pH, with a sharp transition from minimum to maximum in a narrow interval of pH values. We also compare ACCE in surface freshwater and seawater and discuss potential bounds for ACCE in the soil water. Finally, we present two applications of ACCE. The first is a local application to 156 lakes in an acid-sensitive region, highlighting the great sensitivity of ACCE to the lake pH. The second is a global application to the surface ocean, revealing a latitudinal pattern of ACCE driven by differences in temperature and salinity.